MicroRNA-542-3p targets Pten to inhibit the myoblasts proliferation but suppresses myogenic differentiation independent of targeted Pten

Background Non-coding RNA is a key epigenetic regulation factor during skeletal muscle development and postnatal growth, and miR-542-3p was reported to be conserved and highly expressed in the skeletal muscle among different species. However, its exact functions in the proliferation of muscle stem cells and myogenesis remain to be determined. Methods Transfection of proliferative and differentiated C2C12 cells used miR-542-3p mimic and inhibitor. RT-qPCR, EdU staining, immunofluorescence staining, cell counting kit 8 (CCK-8), and Western blot were used to evaluate the proliferation and myogenic differentiation caused by miR-542-3p. The dual luciferase reporter analysis and rescued experiment of the target gene were used to reveal the molecular mechanism. Results The data shows overexpression of miR-542-3p downregulation of mRNA and protein levels of proliferation marker genes, reduction of EdU+ cells, and cellular vitality. Additionally, knocking it down promoted the aforementioned phenotypes. For differentiation, the miR-542-3p gain-of-function reduced both mRNA and protein levels of myogenic genes, including MYOG, MYOD1, et al. Furthermore, immunofluorescence staining immunized by MYHC antibody showed that the myotube number, fluorescence intensity, differentiation index, and myotube fusion index all decreased in the miR-542-3p mimic group, compared with the control group. Conversely, these phenotypes exhibited an increased trend in the miR-542-3p inhibitor group. Mechanistically, phosphatase and tensin homolog (Pten) was identified as the bona fide target gene of miR-542-3p by dual luciferase reporter gene assay, si-Pten combined with miR-542-3p inhibitor treatments totally rescued the promotion of proliferation by loss-function of miR-542-3p. Conclusions This study indicates that miR-542-3p inhibits the proliferation and differentiation of myoblast and Pten is a dependent target gene of miR-542-3p in myoblast proliferation, but not in differentiation. Supplementary Information The online version contains supplementary material available at 10.1186/s12864-024-10260-y.


Background
Skeletal muscle is one of the most important organs and tissues in mammals [1], accounting for 40% of the body weight [2].Therefore, the normal development of skeletal muscle will directly affect the life activities of the whole body, such as the energy transformation of the body to produce power, directly or indirectly participate in energy metabolism, and affect individual health [3].Skeletal muscle development is mainly realized through the proliferation and differentiation of skeletal muscle progenitor cells and hypertrophy and thickening of skeletal muscle fibers [4].This process is regulated by several factors, including transcription factors [5], methyltransferases [6], non-coding RNA [7], and signaling pathways [8].However, the development process of the entire skeletal muscle is extremely complex and the key regulators are not completely revealed.
MicroRNAs (miRNAs) are a class of highly conserved endogenous non-coding RNAs with 18 to 22 nucleotides [9].It acts by binding to the 3'-UTR (untranslated region) site of the target gene resulting in mRNA degradation or translation disruption [10].In the process of skeletal muscle development, some muscle-specific miRNAs or muscle-rich expressions of miRNAs involved in myogenesis were reported.For example, miR-185-3p and miR-370-3p are highly and specifically expressed in leg muscles of New Zealand rabbit fetuses, children, and adults, affecting muscle development [11], and miR-22 can inhibit the proliferation of C2C12 cells and promote their differentiation [12].More and more studies indicate that multiple muscle-enriched miRNAs play an extremely important and essential role in muscle development.Guo et al. found that miR-542-3p showed a very high average RNA level among the newly annotated miRNAs during goat skeletal muscle development, and showed a significant decrease after birth [13].Also, previously published report found that miR-542-3p significantly increased in muscle dysfunction patients [14,15].Another evidence showed that miR-542-3p had a trend of first increasing and then decreasing in the porcine five prenatal stages (35,49,63, 77, 91 days post coitum) and five postnatal stages (2,28,90,120, 180 days postnatal), which was identified as a new candidate myogenic miRNA [16].However, the specific role and molecular mechanism of miR-542-3p in regulating the proliferation and differentiation of myoblast remain unclear.
In this study, we aim to measure the expression pattern of miR-542-3p during C2C12 myoblasts myogenic differentiation and reveal the potential role of miR-542-3p in the proliferation and differentiation of myoblasts by gain and loss of miR-542-3p function.Our results show that miR-542-3p directly targets Pten to negatively regulate the proliferation of myoblasts, but does not depend on Pten to inhibit differentiation.

Expression patterns of miR-542-3p in different species and during myogenesis
Combined analysis of the differential miRNAs in different models, including muscle dystrophy patients [15], porcine [16] and goat [13] skeletal muscle development, of which 32 differential miRNAs between male muscle dysfunction patients and healthy men of similar age were found, 24 candidate myogenic miRNAs were screened during 10 developmental stages of porcine skeletal muscle and 19 miRNAs were enriched in the goat skeletal muscle, only miR-542-3p as the overlapped miRNA in all models (Fig. 1A).The sequence alignment analysis showed that miR-542-3p was highly conserved in different species (Fig. 1B).C2C12 myoblasts were used to construct the skeletal myogenesis model (Fig. 1C), RT-qPCR results showed that miR-542-3p expression showed a sharp decreasing trend at day 2 after myogenic differentiation induction and then gradually increased during myoblast differentiation (Fig. 1D).This expressional pattern suggested that miR-542-3p might be involved in myoblast proliferation and differentiation.

MiR-542-3p loss-of-function enhances the differentiation of myoblast
Next, we carried out miR-542-3p loss-of-function in C2C12 cells, which significantly increased the gene expression levels of MYOG, MYOD1, MYF5, and MYF6, compared to those of control (Fig. 5A).Western blotting result showed that interference of miR-542-3p dramatically upregulated protein levels of MYOG and MYOD1 (Fig. 5B, C).In compliance with the gene expression, disruption of miR-542-3p had more and larger myotubes labeled by MYHC antibody (Fig. 5D) and quantitative analysis found a significant increase trend of fluorescence intensity (Fig. 5E), differentiation index (Fig. 5F), and myotube fusion index (Fig. 5G) in miR-542-3p inhibitortreated cells to counterparts of control.Therefore, we infer that inhibition of miR-542-3p enhances myoblast differentiation.

Pten is identified as a direct target gene of miR-542-3p
To further investigate the bona fide target of miR-542-3p in myoblast proliferation and differentiation, three online software tools, including Targetscan 7.2, miRDB, and DIANA, were used to predict the target gene of miR-542-3p.The Venn diagrams showed 36 overlapping target genes, such as Sun2, Glis3, Gria4, and Pten (Fig. 6A).Numerous studies have shown that Pten has an important effect on the growth and development of skeletal muscle [17][18][19].Therefore, Pten was predicted as a candidate target gene of miR-542-3p in the skeletal muscle.The dual luciferase reporter plasmids (PmirGLO-Pten-WT and PmirGLO-Pten-MT) were constructed, in which pmirGLO-Pten-WT was inserted by the wild type 3'-UTR sequence of Pten binding to seed sequence of miR-542-3p and PmirGLO-Pten-MT was inserted by Pten 3'-UTR with nucleotide mutation at binding site (Fig. 6B, C and Supplementary Material Fig. 1).Next, PmirGLO-Pten-WT, PmirGLO-Pten-MT, miR-542-3p mimic, and mimic NC were co-transfected to perform luciferase reporter assay and data showed that miR-542-3p mimic treatment dramatically suppressed luciferase activity of PmirGLO-Pten-WT, compared to mimic NC group (Fig. 6D).In contrast, luciferase activity of PmirGLO-Pten-MT was not affected by miR-542-3p mimic (Fig. 6D).Furthermore, overexpression of miR-542-3p inhibited Pten expression at mRNA levels (Fig. 6E), while knockdown of miR-542-3p elevated its mRNA levels (Fig. 6F).In compliance with transcriptional level, the inhibition and elevation of Pten protein level were respectively observed in miR-542-3p mimic and its inhibitor treatment cells by western blotting analysis (Fig. 6G, H, I, J).Thus, these results indicated that Pten is a direct target gene for miR-542-3p.

MiR-542-3p inhibits myoblasts proliferation by targeting Pten
Shen et al. found that Pten positively regulates the proliferation of skeletal muscle satellite cell [20].Firstly, the function of Pten regulation on myoblast proliferation was confirmed mediated by si-Pten treatment.RT-qPCR results showed that the knockdown efficiency of Pten was high and decreased to ~ 20% to that of control (Fig. 7A), which significantly downregulated mRNA levels of proliferation-related marker genes, including CCNB1, CCND2, CDK2, and CDK4 (Fig. 7A).Moreover, knockdown of Pten exhibited an obvious reduction of EdU positive cells (Fig. 7B, C).These data were concluded that the knockdown of Pten suppressed myoblast proliferation.
Then, the rescue experiments of co-transfected si-Pten and miR-542-3p inhibitor were carried out to validate miR-542-3p inhibiting myoblasts proliferation depending on target gene Pten.Compared with inhibitor NC and miR-542-3p inhibitor groups, miR-542-3p inhibitor combination with the si-Pten group totally rescued the mRNA level of proliferation-related genes (Fig. 7A).Similarly, the DNA synthesis ability of myoblast, another indicator of cellular proliferation, assessed by EdU staining analysis was identical to the expression of proliferated related genes (Fig. 7B, C).These results further demonstrated that miR-542-3p inhibits the proliferation of C2C12 myoblasts by directly targeting Pten.

MiR-542-3p inhibits myoblasts differentiation independent of targeted Pten
Yue et al. found that the skeletal muscle-specific knockout (KO) Pten gene can alleviate muscle fiber degeneration, restore muscle function, and improve muscle pathology [19].To validate the effect of Pten on the differentiation of C2C12 myoblasts, si-Pten and negative control (NC) were transfected, respectively.RT-qPCR results showed that knockdown of Pten significantly promoted the mRNA levels of the differentiated related marker genes MYOG and MYF6 were also significantly increased (Fig. 8A).In addition, MYHC antibody immunofluorescence staining found more myotubes in the si-Pten group than that of inhibitor NC (Fig. 8B) and had a significant increase trend in the fluorescence intensity (Fig. 8C), differentiation index (Fig. 8D), and myotube fusion index (Fig. 8E) of the si-Pten group by quantitative analysis.These data indicated that the knockdown of Pten promotes myoblast differentiation.
Then, we carried out the rescue experiments of cotransfected si-Pten and miR-542-3p inhibitor to elucidate miR-542-3p repressing myogenic differentiation through the target gene Pten.It was found that the differentiationassociated genes had no significant change except for MYF5, compared with the miR-542-3p inhibitor group, so the promotion of myogenic differentiation induced by the miR-542-3p inhibitor was not rescued (Fig. 8A).Further, myotubes formation, differentiation index, and myotube fusion index were determined by immunofluorescence staining and its quantitative analysis, which was also identical to gene expressional trend (Fig. 8B, C, D, E).In summary, miR-542-3p inhibits the differentiation of myoblasts independently of targeting Pten.These results demonstrated that miR-542-3p inhibits myoblast differentiation and relies on the target gene Pten to inhibit proliferation (Fig. 9).

Discussion
More and more pieces of evidence indicate that multiple muscle-enriched miRNAs play an extremely important and essential role in muscle development.Here, overexpression of miR-542-3p inhibits the proliferation and differentiation of myoblast.On the contrary, the knockdown of miR-542-3p promotes these phenotypes.This Extensive research demonstrated that miRNAs are highly conserved in the minimal [21][22][23].Through literature and sequence alignment analysis, miR-542-3p is the only highly conserved difference miRNA in skeletal muscle development of goats [13], muscular dystrophy patients [15] and porcine [16].Therefore, miR-542-3p was identified as a conserved in different species.Besides, we found that the expression of miR-542-3p decreased sharply after 2 days of induction, and then gradually increased.Research has shown that miR-542-3p has a trend of first increasing and then decreasing in the five prenatal and postnatal stages of porcine [16] and plays an important role in skeletal muscle of yaks aged 0.5, 2.5, 4.5, and 7.5 years [24].Therefore, miR-542-3p might participate in the proliferation and differentiation of myoblasts.
CCNB1 [25], CDK2 [26], CCND1 [27], CCND2 [28], CDK4 [29], and P53 [30] are all marker genes associated with cell proliferation, and our data show that overexpression of miR-542-3p significantly inhibits these gene expression, cellular activity and DNA synthesis and vice versa.These data indicate that miR-542-3p inhibits the proliferation of C2C12 myoblasts.Similarly, extensive studies have shown that miR-542-3p has an inhibitory effect on the proliferation of cancer cells, including colorectal cancer cell [31], neuroblastoma cell [32], and epithelial ovarian cancer [33].Based on previously published work, Qin et al. found that the expression of miR-542-3p in porcine peaked at 63 days after coitum and gradually decreased later [16], and Guo et al. found that miR-542-3p peaked at 60 days of gestation and decreased significantly at 3 days after birth in the four developmental stages of longissimus dorsi muscle of goats [13].These results suggested that miR-542-3p is highly expressed during the fetal period (a high cellular proliferation phase) of porcine and goat, which suggested that miR-542-3p might be a positive regulator for muscle stem cell proliferation.However, overexpression of miR-542-3p inhibits C2C12 cell proliferation in vitro, and the opposite phenotype was observed after inhibition of miR-542-3p.Except for our data and the aforementioned cited works, other papers also shown that miR-542-3p gain-offunction inhibits the proliferation of cells, such as osteoblast cell [34] and breast cancer cell [35].Combined with our data and published works, miR-542-3p is a conserved negative regulator for cell proliferation.
Overexpression and interference of miR-542-3p, the mRNA level of P53 respectively decreased and increased along with the proliferation marker genes.However, the P53 expressional trend mediated by miR-542-3p in our study was contradictory with its classical function, as a tumor suppressor factor [36].It was found that P53 has a low concentration in normal cells and is transcriptionally activated after being stimulated by external factors, and its role is related to protein modifications, including ubiquitination and acetylation [37,38].Thus, the changes in the mRNA level of P53 were detected, it was speculated that P53 without modification may not play a biological function in this experiment.In addition, Roser Farre-Garros et al. reported that miR-542-3p/5p was positively correlated with P53 activity in patients with chronic obstructive pulmonary disease (COPD), accompanied by a reduction of muscle mass and function [15].In this case, the data just showed that the miR-542 level has positively correlated with the gene set for P53 activity, being involved in mitochondrial ribosomal stress [15].The miR-542 weather affects the P53 expression or its protein modification still needs further study.
We used three online software tools (Targetscan 7.2, miRDB, and DIANA) combined with Venn diagram analysis to predict that Pten is a candidate target gene of miR-542-3p.Previously, researchers reported that Pten was targeted by miR-19b-3p, resulting in an increase of muscle protein synthesis rate in aging mice and human myotubes [50].Additionally, Pten was discovered in 1997 independently by three laboratories as a tumor suppressor of which the expression is often lost in tumors [51][52][53], and several miRNAs (including miR-205, miR-122, miR-21, etc.) have been identified as binding to the 3' untranslated region of Pten mRNA [54][55][56].Therefore, we hypothesized that miR-542-3p might inhibit myoblast proliferation and differentiation targeting Pten.Indeed, dual-luciferase reporter analysis and expression measurement supported that Pten was a bona fide target gene of miR-542-3p.Furthermore, the rescued experiment provided direct evidence that miR-542-3p suppresses myoblast proliferation through target Pten.However, the rescued phenomenon was not observed in myoblast differentiation, which suggested that the inhibition of miR-542-3p on myogenic differentiation independent of targeted Pten and miR-542-3p would target other genes to repress myogenesis.

Conclusions
Collectively, miR-542-3p repressed the proliferation and differentiation of C2C12 myoblasts.Furthermore, Pten was identified as the downstream target gene of miR-542-3p, and its inhibition for myoblast proliferation depends on Pten.Our findings are conducive to understanding the specific mode of action of miR-542-3p in regulating myoblast proliferation and differentiation, which also expands knowledge of studying skeletal muscle at the miRNA level.

Cell transfection
miR-542-3p mimic, mimic negative control (NC), miR-542-3p inhibitor, and inhibitor NC were synthesized by Jima Pharmaceutical Technology (Shanghai, China) (Table 1).The above RNAs, Pten-wild (ligated the 3'-UTR of Pten) and pmir-GLO plasmids were transfected by Lipofectamine ™ 3000 Reagent (Invitrogen, L3000015, USA), according to the instructions of the manufacturer.The cells were seeded in 24-well plates and the transfection was performed at 40% and 60% of cell confluence for proliferation and differentiation assay, respectively.Collected cells 48 h after transfection to detect proliferation-related indicators.To detect differentiation-related indicators, myogenic induction was performed on cells 24 h after transfection, and then cells were collected for further myogenic analysis at 3 days after induction.The miR-542-3p mimic was transfected at a concentration of 80 nmol/l (nM) and the inhibitor was transfected at a concentration of 100 nM.And the transfection concentration of Pten's siRNA is 100 nM.

Total RNA extraction and quantitative real-time PCR (RT-qPCR)
TRiZOL (Vazyme, R401-01, Nanjing, China) reagent was used to extract total RNA from C2C12 myoblasts.The quality and concentration of RNA were measured by Nanodrop ND-1000 (Thermo Fisher, USA), and the OD 260 /OD 280 between 1.8 ~ 2.0 was used to synthesize cDNA.According to the manufacturer's instructions, Prime-Script RT Master Mix (Takara, Dalian, China) was used to synthesize cDNA.SYBR qPCR Master Mix (Vazyme, Nanjing, China) and SYBR real-time PCR mixture (BioTeke, China) were used for real-time quantitative PCR analysis on the Bio-Rad CFX96 system.The primers used were shown in Table 2.Each sample was repeated three times and the 2-△△Ct method was used to analyze data.

Immunofluorescence staining
The cells were washed by PBS twice and 4% paraformaldehyde (Biosharp, BL539A, China) solution was added to fix cells for 10 ~ 15 min at room temperature, and then PBS was used to wash samples three times.Subsequently, 100 nM glycine was added to incubate for 10 min, and then PBS was added to wash samples 3 times.Blocking buffer (5% goat serum, 2%BSA, 0.2%TritonX-100, and 0.1% sodium azide) was used to incubate cells for 30 min at room temperature, and then cells were immunized with primary antibodies (MYHC, DSHB Hybridoma Product MF 20) for overnight at 4℃.
After that, the fluorescently labeled secondary antibody diluted with PBS was added to incubate for 1 h at room temperature.The fluorescently labeled secondary antibody included Alexa Fluor ™ 568 goat anti-rabbit IgG (H + L) (Invitrogen, A11011, Carlsbad, USA) and Goat anti-mouse IgG H&L/FITC (Bioss, bs-0296G-FITC, Beijing, China).The confocal microscope (Zeiss, LSM800, Germany) was used to capture images.Used ImageJ software to calculate fluorescence intensity and collected all data from randomly selected areas of 3 biological replicates.MYHC immunofluorescence intensity analysis is expressed as total fluorescence intensity divided by area.The myotube differentiation index was expressed as the ratio of the number of myotubes with 3 or more nuclei to the total number of myotubes [57].The Myotube fusion index was expressed as the ratio of the number of nuclei in the myotube to the total number [58].

Dual-Luciferase reporter assay
HEK293T (293 T) cells were seeded in 24-well plates and cultured in a growth medium (GM).The miR-542-3p mimic, mimic NC, and luciferase reporter plasmids with wild type and mutant 3'-UTR of Pten were co-transfected at 70%-80% of cell density.There are 3 repetitions in each group.The Dual-Luciferase Reporter Assay Kit (Vazyme, DL101-01, Nanjing, China) was used to detect firefly and vanilla luciferase activity, according to the manufacturer's instructions.

Western blot analysis
Cells were washed twice with PBS solution and lysed in RIPA protein lysis buffer with 1% protease inhibitors to extract total protein.Western blotting was performed according to a previously established procedure, and protein concentration determination was performed using a BCA protein concentration assay kit (Biosharp, BL521B, Hefei, China), followed by protein separation in SDS-PAGE, and then transferred to PVDF membrane with anti-Pten (Bioss, bsm-33319M, Beijing, China), β-actin (Bioss, bsm-33036M, Beijing, China), CCND1 (Wanleibio, WL01435a, Shenyang, China), CCNB1 (Wanleibio, WL01760, Shenyang, China), MYOG (Abcam, ab124800, Cambridge, United Kingdom), and MYOD1 (Wanleibio, WL04662, Shenyang, China) were immunoblotted.Used ImageJ software to analyze the grayscale values of protein bands and standardize the target protein bands to β-actin was used as the load control.Each experiment was repeated with 3 organisms.

Statistical analysis
Data were represented as mean ± standard error.GraphPad Prism 8.0 software and image J 1.8.0 were used to analyze data.Calculate statistically significant differences through T-test analysis and two-way ANOVA.P < 0.05, the difference is significant.

Fig. 2
Fig. 2 Overexpression of miR-542-3p inhibits myoblast proliferation.A The expression level of miR-542-3p in C2C12 myoblasts at 48 h after its mimic transfection was determined by RT-qPCR.B The mRNA level of CCND1, CCND2, CCNB1, CDK2, CDK4, and P53 in the miR-542-3p mimic and control groups.C, D The western blotting bands of proliferation markers in the miR-542-3p mimic and control groups (C) and their quantitative analysis (D) by image J software.The membrane was cleaved before hybridization with the antibody, and all protein bands (CCND1, CCNB1, and β-actin) in Fig. 2C were from the same samples.4 biological replicates were detected, 3 of which were shown in the Fig. 2C and full-length blots were presented in Supplementary Fig. S2.E, F The images of 5-ethynyl-20-deoxyuridine (EdU) staining (E) and percentage of the EdU positive cells (F), scale bar: 100 μm.G Cell viability was measured by cell counting kit-8 assay (CCK-8).n = 3, * P < 0.05, ** P < 0.01, *** P < 0.001, **** P < 0.0001

Fig. 3
Fig. 3 Disruption of miR-542-3p enhances the proliferation of myoblast.A The expression of miR-542-3p in C2C12 myoblasts at 48 h after its inhibitor treatment was assayed by RT-qPCR.B The mRNA levels of CCND1, CCND2, CCNB1, CDK2, CDK4, and P53 in the miR-542-3p inhibitor and inhibitor NC groups.C, D The western blotting bands of proliferation markers in the miR-542-3p inhibitor and inhibitor NC groups (C) and their quantitative analysis (D) by image J software.The membrane was cleaved before hybridization with the antibody, and all protein bands (CCND1, CCNB1, and β-actin) in Fig. 3C were from the same samples.4 biological replicates were detected, 3 of which were shown in the Fig. 3C and full-length blots were presented in Supplementary Fig. S3.E, F The images of EdU staining (E) and percentage of the EdU positive cells (F), scale bar: 100 μm.G Cell viability was measured by CCK-8.n = 3, * P < 0.05, ** P < 0.01, *** P < 0.001, **** P < 0.0001

Fig. 4
Fig. 4 Overexpression of miR-542-3p inhibits myoblast differentiation.A The mRNA level of MYOG, MYOD1, MYHC, MYF5, and MYF6 at day 3 after transfection of miR-542-3p mimic and control groups.B, C The western blotting bands of differentiation markers in the miR-542-3p mimic and control groups (B) and their quantitative analysis (C) by image J software.The membrane was cleaved before hybridization with the antibody, and all protein bands (MYOG, MYOD1, and β-actin) in Fig. 4B were from the same samples.4 biological replicates were detected, 3 of which were shown in the Fig. 4B and full-length blots were presented in Supplementary Fig. S4.D Anti-Myosin heavy chain (MYHC) immunofluorescence staining after the transfection of miR-542-3p mimic, scale bar: 100 μm.E, F, G MYHC immunofluorescence intensity analysis (E), differentiation index (F), myotube fusion index (G) by image J software.n = 3, * P < 0.05, ** P < 0.01

Fig. 5
Fig. 5 Inhibition of miR-542-3p promotes myoblast differentiation.A The mRNA improvement of MYOG, MYOD1, MYHC, MYF5, and MYF6 at day 3 after transfection of miR-542-3p inhibitor and control groups.B, C The western blotting bands of differentiation markers in the miR-542-3p inhibitor and control groups (B) and their quantitative (C) analysis by image J software.The membrane was cleaved before hybridization with the antibody, and all protein bands (MYOG, MYOD1, and β-actin) in Fig. 5B were from the same samples.4 biological replicates were detected, 3 of which were shown in the Fig. 5B and full-length blots were presented in Supplementary Fig. S5.D Anti-Myosin heavy chain (MYHC) immunofluorescence staining after the transfection of miR-542-3p inhibitor, scale bar: 100 μm.E, F, G MYHC immunofluorescence intensity analysis (E), differentiation index (F) and myotube fusion index (G) by image J software.n = 3, * P < 0.05, ** P < 0.01, *** P < 0.001, **** P < 0.0001

Fig. 6
Fig. 6 miR-542-3p directly targets the Pten gene.A Prediction of target genes of miR-542-3p using online software, including DIANA, TargetScan 7.2, and miRDB.B The complementary pairing of miR-542-3p and the potential target gene Pten wild type 3'-UTR or its mutated 3'-UTR.C Diagram of the construction of dual-luciferase reporter vectors containing the Pten 3'-UTR sequences of wild type or mutant.hRluc-neo fusion means renilla luciferase; Luc2 means firefly luciferase.D 293 T cells were co-transfected with Pten-3'-UTR wild or mutant dual-luciferase vector and the miR-542-3p mimic or mimic NC.The relative luciferase activity was assayed at 48 h after transfection.E, F The mRNA level of Pten in the miR-542-3p mimic (mimic) and mimic NC (E), miR-542-3p inhibitor (inhibitor) and inhibitor NC (F) were determined by RT-qPCR.G, I, H, J Protein level of Pten was detected by western blotting after overexpression (G, H) and inhibition (I, J) of miR-542-3p.The membrane was cleaved before hybridization with the antibody, and all protein bands in Fig. 6G and protein bands in Fig. 6I were from the same sample, respectively.Full-length blots are presented in Supplementary Fig. S6.n = 3, * P < 0.05, ** P < 0.01

Table 1
RNA oligonucleotides for miR-542-3p and siRNA for Pten in this study

Table 2
Primer sequences for a reverse transcription-quantitative polymerase chain reaction